Most thyroid peroxidase (TPO) autoantibodies in man recognize closely associated epitopes in two domains (A and B) on TPO. These epitopes were defined by recombinant monoclonal human autoantibodies expressed as antigen-binding fragments [F(ab)]. Only five heavy (H) and light (L) chain gene combinations encoded 34 F(ab), all of which have high affinity (Kd, ∼ 10(−10) M) for TPO. We, therefore, investigated the roles of H and L chain genes in TPO domain recognition in two ways. First, we created hybrid F(ab) by forced recombination of H and L chain genes from 4 F(ab) recognizing the A or B domains. These hybrid F(ab) proteins, expressed in bacteria, bound extremely poorly (or not at all) to TPO, even at concentrations more than 100-fold higher than those required for detection of TPO binding by the original F(ab). Nucleotide sequencing of the cDNA as well as gel electrophoresis of the expressed proteins confirmed that poor hybrid F(ab) binding to TPO was not the result of cloning artifacts. Therefore, contrary to prevailing views on combinatorial libraries, we found no tolerance for H and L chain cross-combinations in high affinity TPO binding. These observations strengthen the likelihood that the H and L chain combinations from combinatorial libraries reflect those of TPO autoantibodies in vivo. In a second approach to examine the roles of H and L chains in TPO binding, we focused on three original F(ab) with similar L chains (encoded by KL012-like germline genes) and similar H chains (encoded by V1-3B-like germline genes), but different diversity (D) regions. All F(ab) bound predominantly to TPO domain A, as observed previously for a F(ab) with a KL012 L chain and a different H chain. Conversely, a F(ab) with a V1-3B-like H chain but a different L chain (A') bound to TPO domain B. These data indicate that the L chain plays a major role in defining TPO epitope recognition. © 1994 by The Endocrine Society.
Recombinant thyroid peroxidase-specific autoantibodies. II. Role of individual heavy and light chains in determining epitope recognition
Costante G.;
1994-01-01
Abstract
Most thyroid peroxidase (TPO) autoantibodies in man recognize closely associated epitopes in two domains (A and B) on TPO. These epitopes were defined by recombinant monoclonal human autoantibodies expressed as antigen-binding fragments [F(ab)]. Only five heavy (H) and light (L) chain gene combinations encoded 34 F(ab), all of which have high affinity (Kd, ∼ 10(−10) M) for TPO. We, therefore, investigated the roles of H and L chain genes in TPO domain recognition in two ways. First, we created hybrid F(ab) by forced recombination of H and L chain genes from 4 F(ab) recognizing the A or B domains. These hybrid F(ab) proteins, expressed in bacteria, bound extremely poorly (or not at all) to TPO, even at concentrations more than 100-fold higher than those required for detection of TPO binding by the original F(ab). Nucleotide sequencing of the cDNA as well as gel electrophoresis of the expressed proteins confirmed that poor hybrid F(ab) binding to TPO was not the result of cloning artifacts. Therefore, contrary to prevailing views on combinatorial libraries, we found no tolerance for H and L chain cross-combinations in high affinity TPO binding. These observations strengthen the likelihood that the H and L chain combinations from combinatorial libraries reflect those of TPO autoantibodies in vivo. In a second approach to examine the roles of H and L chains in TPO binding, we focused on three original F(ab) with similar L chains (encoded by KL012-like germline genes) and similar H chains (encoded by V1-3B-like germline genes), but different diversity (D) regions. All F(ab) bound predominantly to TPO domain A, as observed previously for a F(ab) with a KL012 L chain and a different H chain. Conversely, a F(ab) with a V1-3B-like H chain but a different L chain (A') bound to TPO domain B. These data indicate that the L chain plays a major role in defining TPO epitope recognition. © 1994 by The Endocrine Society.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.